Y
Yew Von Lim
Researcher at Singapore University of Technology and Design
Publications - 44
Citations - 2207
Yew Von Lim is an academic researcher from Singapore University of Technology and Design. The author has contributed to research in topics: Anode & Chemistry. The author has an hindex of 18, co-authored 35 publications receiving 1064 citations. Previous affiliations of Yew Von Lim include University of Wollongong & National University of Singapore.
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Regulating the polysulfide redox conversion by iron phosphide nanocrystals for high-rate and ultrastable lithium-sulfur battery
Shaozhuan Huang,Yew Von Lim,Xiaoming Zhang,Ye Wang,Ye Wang,Yun Zheng,Dezhi Kong,Meng Ding,Shengyuan A. Yang,Hui Ying Yang +9 more
TL;DR: In this article, a high-rate and ultrastable Li-S battery has been demonstrated by using the multifunctional iron phosphide (FeP) nanocrystals as an efficient host material to anchor the polysulfides and regulate the redox conversion.
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Recent Advances in Heterostructure Engineering for Lithium–Sulfur Batteries
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3D carbon foam-supported WS2 nanosheets for cable-shaped flexible sodium ion batteries
Ye Wang,Ye Wang,Dezhi Kong,Shaozhuan Huang,Yumeng Shi,Yumeng Shi,Meng Ding,Yew Von Lim,Tingting Xu,Fuming Chen,Xinjian Li,Hui Ying Yang +11 more
TL;DR: In this paper, a hybrid nano-architecture with nitrogen-doped graphene quantum dots (NGQDs)-decorated WS2 nanosheets anchored on a porous three-dimensional carbon foam scaffold as the anode that enables long-term cycling and high rate capability for SIBs is presented.
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3D hierarchical defect-rich NiMo3S4 nanosheet arrays grown on carbon textiles for high-performance sodium-ion batteries and hydrogen evolution reaction
TL;DR: A hierarchical hybrid nanostructure composed of NiMo3S4 nanosheet arrays with abundant exposed edges on flexible carbon textiles was designed and synthesized for sodium ion batteries and electrocatalytic hydrogen evolution reaction (HER) as mentioned in this paper.
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3D self-branched zinc-cobalt Oxide@N-doped carbon hollow nanowall arrays for high-performance asymmetric supercapacitors and oxygen electrocatalysis
Dezhi Kong,Ye Wang,Ye Wang,Shaozhuan Huang,Junping Hu,Yew Von Lim,Bo Liu,Shuang Fan,Yumeng Shi,Hui Ying Yang +9 more
TL;DR: In this paper, a 3D self-branched nanostructure anchored on flexible carbon textiles (CTs) can offer short ion diffusion length, fast and continuous electron transport pathway, and abundant reaction active sites.